TITLE:
Quantitative Convergence for Cerebral Processing of Information within the Geomagnetic Environment
AUTHORS:
Mandy A. Scott, Michael A. Persinger
KEYWORDS:
Geomagnetic Activity; Landauer Limit; Adey Voltages; Cerebral Energies; Magnetic Energy Bit Equivalents
JOURNAL NAME:
Journal of Signal and Information Processing,
Vol.4 No.3,
August
15,
2013
ABSTRACT:
Human
cerebral systems are immersed in the earth’s magnetic field. To be consistent with the results of several
correlational studies, we found that the most accurate detection of information
at 50 m occurred when the geomagnetic activity was ~5 nT. The
corresponding magnetic energy within the cerebral volume is equivalent to
approximately 3 million bits of Landauer Limit quantum which is equivalent to
low resolution photographs. Non-linear analyses indicated that the induced
electric fields from the typical time variation of geomagnetic intensity
converged with the Adey voltages for the threshold for background entropy. The
relevance of signal/noise ratios and the recent evidence indicate that imagery and cognition may
actually reflect fields of biophotons within a fixed volume, which indicates that a natural processing
system may be occurring under very specific conditions that involves detection of recondite
information at a distance.